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scope-tui/src/app.rs

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Rust
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use std::{io::{self, ErrorKind}, time::{Duration, Instant}};
use tui::{
style::Color, widgets::{GraphType, Table, Row, Cell}, symbols,
backend::Backend,
widgets::{Chart, Axis, Dataset},
Terminal, text::Span, style::{Style, Modifier}, layout::{Rect, Constraint}
};
use crossterm::event::{self, Event, KeyCode, KeyModifiers};
use libpulse_simple_binding::Simple;
use libpulse_binding::{stream::Direction, def::BufferAttr};
use libpulse_binding::sample::{Spec, Format};
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use crate::{Args, source::{PulseAudioSimple, DataSource}};
use crate::config::{ChartNames, ChartBounds, ChartReferences, AppConfig, Dimension};
use crate::parser::{SampleParser, Signed16PCM};
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pub fn run_app<T : Backend>(args: Args, terminal: &mut Terminal<T>) -> Result<(), io::Error> {
// prepare globals
let mut app = App::from(&args);
let fmt = Signed16PCM{}; // TODO some way to choose this?
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let mut source = PulseAudioSimple::new(
args.device.as_deref(),
args.channels,
args.sample_rate,
args.buffer,
args.server_buffer
).unwrap();
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let mut fps = 0;
let mut framerate = 0;
let mut last_poll = Instant::now();
let mut channels = vec![];
loop {
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let data = source.recv().unwrap();
if !app.cfg.pause {
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channels = fmt.oscilloscope(data, args.channels);
}
let mut trigger_offset = 0;
if app.cfg.triggering {
// TODO allow to customize channel to use for triggering
if let Some(ch) = channels.get(0) {
for i in 0..ch.len() { // seek to first sample rising through threshold
if triggered(ch, i, app.cfg.threshold, app.cfg.depth, app.cfg.falling_edge) { // triggered
break;
} else {
trigger_offset += 1;
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}
}
// for ch in channels.iter_mut() {
// let limit = if ch.len() < discard { ch.len() } else { discard };
// *ch = ch[limit..].to_vec();
// }
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}
}
let mut measures : Vec<(String, Vec<(f64, f64)>)> = vec![];
let mut peaks : Vec<Vec<(f64, f64)>> = vec![];
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// This third buffer is kinda weird because of lifetimes on Datasets, TODO
// would be nice to make it more straight forward instead of this deep tuple magic
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if app.cfg.vectorscope {
for (i, chunk) in channels.chunks(2).enumerate() {
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let mut tmp = vec![];
match chunk.len() {
2 => {
for i in 0..std::cmp::min(chunk[0].len(), chunk[0].len()) {
tmp.push((chunk[0][i] as f64, chunk[1][i] as f64));
}
},
1 => {
for i in 0..chunk[0].len() {
tmp.push((chunk[0][i] as f64, i as f64));
}
},
_ => continue,
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}
// split it in two so the math downwards still works the same
let pivot = tmp.len() / 2;
measures.push((channel_name(i * 2, true), tmp[pivot..].to_vec())); // put more recent first
measures.push((channel_name((i * 2) + 1, true), tmp[..pivot].to_vec()));
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}
} else {
for (i, channel) in channels.iter().enumerate() {
let mut tmp = vec![];
let mut peak_up = 0.0;
let mut peak_down = 0.0;
for i in 0..channel.len() {
if i >= trigger_offset {
tmp.push(((i - trigger_offset) as f64, channel[i]));
}
if channel[i] > peak_up {
peak_up = channel[i];
}
if channel[i] < peak_down {
peak_down = channel[i];
}
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}
measures.push((channel_name(i, false), tmp));
peaks.push(vec![(0.0, peak_down), (0.0, peak_up)]);
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}
}
let samples = measures.iter().map(|(_,x)| x.len()).max().unwrap_or(0);
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let mut datasets = vec![];
if app.cfg.references {
datasets.push(data_set("", &app.references.x, app.marker_type(), GraphType::Line, app.cfg.axis_color));
datasets.push(data_set("", &app.references.y, app.marker_type(), GraphType::Line, app.cfg.axis_color));
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}
let trigger_pt;
if app.cfg.triggering {
trigger_pt = [(0.0, app.cfg.threshold)];
datasets.push(data_set("T", &trigger_pt, app.marker_type(), GraphType::Scatter, Color::Cyan));
}
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let m_len = measures.len() - 1;
if !app.cfg.vectorscope && app.cfg.peaks {
for (i, pt) in peaks.iter().rev().enumerate() {
datasets.push(data_set("", pt, app.marker_type(), GraphType::Scatter, app.palette(m_len - i)));
}
}
for (i, (name, ds)) in measures.iter().rev().enumerate() {
datasets.push(data_set(&name, ds, app.marker_type(), app.graph_type(), app.palette(m_len - i)));
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}
fps += 1;
if last_poll.elapsed().as_secs() >= 1 {
framerate = fps;
fps = 0;
last_poll = Instant::now();
}
terminal.draw(|f| {
let mut size = f.size();
if app.cfg.show_ui {
let heading = header(&app, samples as u32, framerate);
f.render_widget(heading, Rect { x: size.x, y: size.y, width: size.width, height:1 });
size.height -= 1;
size.y += 1;
}
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let chart = Chart::new(datasets)
.x_axis(axis(&app, Dimension::X)) // TODO allow to have axis sometimes?
.y_axis(axis(&app, Dimension::Y));
f.render_widget(chart, size)
})?;
if process_events(&mut app, &args)? {
break;
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}
}
Ok(())
}
pub struct App {
pub cfg: AppConfig,
pub references: ChartReferences,
pub bounds: ChartBounds,
pub names: ChartNames,
}
impl App {
pub fn update_values(&mut self) {
if self.cfg.scale > 32770 { // sample max value is 32768 (32 bits), but we leave 2 pixels for
self.cfg.scale = 32770; // padding (and to not "disaling" range when reaching limit)
}
if self.cfg.scale < 0 {
self.cfg.scale = 0;
}
if self.cfg.depth < 1 {
self.cfg.depth = 1;
}
if self.cfg.vectorscope {
self.names.x = "left -".into();
self.names.y = "| right".into();
self.bounds.x = [-(self.cfg.scale as f64), self.cfg.scale as f64];
self.bounds.y = [-(self.cfg.scale as f64), self.cfg.scale as f64];
self.references.x = vec![(-(self.cfg.scale as f64), 0.0), (self.cfg.scale as f64, 0.0)];
self.references.y = vec![(0.0, -(self.cfg.scale as f64)), (0.0, self.cfg.scale as f64)];
} else {
self.names.x = "time -".into();
self.names.y = "| amplitude".into();
self.bounds.x = [0.0, self.cfg.width as f64];
self.bounds.y = [-(self.cfg.scale as f64), self.cfg.scale as f64];
self.references.x = vec![(0.0, 0.0), (self.cfg.width as f64, 0.0)];
let half_width = self.cfg.width as f64 / 2.0;
self.references.y = vec![(half_width, -(self.cfg.scale as f64)), (half_width, self.cfg.scale as f64)];
}
}
pub fn marker_type(&self) -> symbols::Marker {
if self.cfg.braille {
symbols::Marker::Braille
} else {
symbols::Marker::Dot
}
}
pub fn graph_type(&self) -> GraphType {
if self.cfg.scatter {
GraphType::Scatter
} else {
GraphType::Line
}
}
pub fn palette(&self, index: usize) -> Color {
*self.cfg.palette.get(index % self.cfg.palette.len()).unwrap_or(&Color::White)
}
}
impl From::<&crate::Args> for App {
fn from(args: &crate::Args) -> Self {
let cfg = AppConfig {
axis_color: Color::DarkGray,
palette: vec![Color::Red, Color::Yellow, Color::Green, Color::Magenta],
scale: args.range,
width: args.buffer / (2 * args.channels as u32), // TODO also make bit depth customizable
triggering: args.triggering,
depth: args.check_depth,
threshold: args.threshold,
vectorscope: args.vectorscope,
references: !args.no_reference,
show_ui: !args.no_ui,
braille: !args.no_braille,
scatter: args.scatter,
falling_edge: args.falling_edge,
peaks: args.show_peaks,
pause: false,
};
let mut app = App {
cfg,
references: ChartReferences::default(),
bounds: ChartBounds::default(),
names: ChartNames::default(),
};
app.update_values();
app
}
}
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// TODO these functions probably shouldn't be here
fn header(app: &App, samples: u32, framerate: u32) -> Table<'static> {
Table::new(
vec![
Row::new(
vec![
Cell::from(format!("TUI {}", if app.cfg.vectorscope { "Vectorscope" } else { "Oscilloscope" })).style(Style::default().fg(Color::Yellow).add_modifier(Modifier::BOLD)),
Cell::from(format!("{}",
if app.cfg.triggering {
format!(
"{} {:.0}{} trigger",
if app.cfg.falling_edge { "v" } else { "^" },
app.cfg.threshold,
if app.cfg.depth > 1 { format!(":{}", app.cfg.depth) } else { "".into() },
)
} else {
"live".into()
}
)),
Cell::from(format!("-{}+ range", app.cfg.scale)),
Cell::from(format!("{}/{} sample", app.cfg.width, samples as u32)),
Cell::from(format!("{}fps", framerate)),
Cell::from(format!("{}{}", if app.cfg.peaks { "|" } else { " " }, if app.cfg.scatter { "***" } else { "---" })),
Cell::from(format!("{}", if app.cfg.pause { "||" } else { "|>" } )),
]
)
]
)
.style(Style::default().fg(Color::Cyan))
.widths(&[
Constraint::Percentage(35),
Constraint::Percentage(15),
Constraint::Percentage(15),
Constraint::Percentage(15),
Constraint::Percentage(6),
Constraint::Percentage(6),
Constraint::Percentage(6)
])
}
fn process_events(app: &mut App, args: &Args) -> Result<bool, io::Error> {
let mut quit = false;
if event::poll(Duration::from_millis(0))? { // process all enqueued events
let event = event::read()?;
match event {
Event::Key(key) => {
match key.modifiers {
KeyModifiers::SHIFT => {
match key.code {
KeyCode::Up => app.cfg.scale -= 1000, // inverted to act as zoom
KeyCode::Down => app.cfg.scale += 1000, // inverted to act as zoom
KeyCode::Right => app.cfg.width += 100,
KeyCode::Left => app.cfg.width -= 100,
KeyCode::PageUp => app.cfg.threshold += 1000.0,
KeyCode::PageDown => app.cfg.threshold -= 1000.0,
_ => {},
}
},
KeyModifiers::CONTROL => {
match key.code { // mimic other programs shortcuts to quit, for user friendlyness
KeyCode::Char('c') | KeyCode::Char('q') | KeyCode::Char('w') => quit = true,
KeyCode::Up => app.cfg.scale -= 50, // inverted to act as zoom
KeyCode::Down => app.cfg.scale += 50, // inverted to act as zoom
KeyCode::Right => app.cfg.width += 5,
KeyCode::Left => app.cfg.width -= 5,
KeyCode::PageUp => app.cfg.threshold += 50.0,
KeyCode::PageDown => app.cfg.threshold -= 50.0,
KeyCode::Char('r') => { // reset settings
app.cfg.references = !args.no_reference;
app.cfg.show_ui = !args.no_ui;
app.cfg.braille = !args.no_braille;
app.cfg.threshold = args.threshold;
app.cfg.width = args.buffer / (args.channels as u32 * 2); // TODO ...
app.cfg.scale = args.range;
app.cfg.vectorscope = args.vectorscope;
app.cfg.triggering = args.triggering;
},
_ => {},
}
},
_ => {
match key.code {
KeyCode::Char('q') => quit = true,
KeyCode::Char(' ') => app.cfg.pause = !app.cfg.pause,
KeyCode::Char('v') => app.cfg.vectorscope = !app.cfg.vectorscope,
KeyCode::Char('s') => app.cfg.scatter = !app.cfg.scatter,
KeyCode::Char('b') => app.cfg.braille = !app.cfg.braille,
KeyCode::Char('h') => app.cfg.show_ui = !app.cfg.show_ui,
KeyCode::Char('r') => app.cfg.references = !app.cfg.references,
KeyCode::Char('e') => app.cfg.falling_edge = !app.cfg.falling_edge,
KeyCode::Char('t') => app.cfg.triggering = !app.cfg.triggering,
KeyCode::Char('p') => app.cfg.peaks = !app.cfg.peaks,
KeyCode::Char('=') => app.cfg.depth += 1,
KeyCode::Char('-') => app.cfg.depth -= 1,
KeyCode::Char('+') => app.cfg.depth += 10,
KeyCode::Char('_') => app.cfg.depth -= 10,
KeyCode::Up => app.cfg.scale -= 250, // inverted to act as zoom
KeyCode::Down => app.cfg.scale += 250, // inverted to act as zoom
KeyCode::Right => app.cfg.width += 25,
KeyCode::Left => app.cfg.width -= 25,
KeyCode::PageUp => app.cfg.threshold += 250.0,
KeyCode::PageDown => app.cfg.threshold -= 250.0,
KeyCode::Tab => { // only reset "zoom"
app.cfg.width = args.buffer / (args.channels as u32 * 2); // TODO ...
app.cfg.scale = args.range;
},
KeyCode::Esc => { // back to oscilloscope
app.cfg.references = !args.no_reference;
app.cfg.show_ui = !args.no_ui;
app.cfg.vectorscope = args.vectorscope;
},
_ => {},
}
}
}
app.update_values();
},
_ => {},
};
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}
Ok(quit)
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}
// TODO can this be made nicer?
fn triggered(data: &[f64], index: usize, threshold: f64, depth: u32, falling_edge:bool) -> bool {
if data.len() < index + (1+depth as usize) { return false; }
if falling_edge {
if data[index] >= threshold {
for i in 1..=depth as usize {
if data[index+i] >= threshold {
return false;
}
}
return true;
} else {
return false;
}
} else {
if data[index] <= threshold {
for i in 1..=depth as usize {
if data[index+i] <= threshold {
return false;
}
}
return true;
} else {
return false;
}
}
}
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fn data_set<'a>(
name: &'a str,
data: &'a [(f64, f64)],
marker_type: symbols::Marker,
graph_type: GraphType,
axis_color: Color
) -> Dataset<'a> {
Dataset::default()
.name(name)
.marker(marker_type)
.graph_type(graph_type)
.style(Style::default().fg(axis_color))
.data(&data)
}
fn axis(app: &App, dim: Dimension) -> Axis {
let (name, bounds) = match dim {
Dimension::X => (&app.names.x, &app.bounds.x),
Dimension::Y => (&app.names.y, &app.bounds.y),
};
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let mut a = Axis::default();
if app.cfg.show_ui {
a = a.title(Span::styled(name, Style::default().fg(Color::Cyan)));
}
a.style(Style::default().fg(app.cfg.axis_color)).bounds(*bounds)
}
fn channel_name(index: usize, vectorscope: bool) -> String {
if vectorscope { return format!("{}", index); }
match index {
0 => "L".into(),
1 => "R".into(),
_ => format!("{}", index),
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}
}